The microstructure evolution and phase transformation of Cu-20Ni-20Mn(mass fraction,%) alloy at 450 °C were investigated by X-ray diffraction and transmission electron microscopy(TEM).The variations of tensil...The microstructure evolution and phase transformation of Cu-20Ni-20Mn(mass fraction,%) alloy at 450 °C were investigated by X-ray diffraction and transmission electron microscopy(TEM).The variations of tensile strength,yield strength and hardness of this alloy during aging process were also analyzed.The results show that no significant variations of hardness and strength in the initial stage of aging,with a long incubation period,are observed at 450 °C.Subsequently,the ordered face-centered tetragonal(FCT) Ni Mn phase nucleates and grows up with prolonging the aging time.The hardness and tensile strength of the alloy increase up to their maximum values with increasing the ordered particle size,i.e.,the strength of the alloy reaches 942 MPa after being aged at 450°C for 40h.The main cause of the age-hardening is considered to be precipitation strengthening due to the ordered FCT-Ni Mn particles.展开更多
The effects of Mo addition on microstructures,phase relationships,order–disorder phase-transition temperatures and room-temperature mechanical properties of Fe50Al50-nMon alloys(n=1,3,5,7,and 9,mole fraction,%)were i...The effects of Mo addition on microstructures,phase relationships,order–disorder phase-transition temperatures and room-temperature mechanical properties of Fe50Al50-nMon alloys(n=1,3,5,7,and 9,mole fraction,%)were investigated after solidification and heat treatment.Structural characterization of the samples was performed via X-ray diffraction(XRD),scanning electron microscopy(SEM)and differential scanning calorimetry.Room-temperature mechanical properties were investigated by conducting compression and microhardness tests.Mo3Al particles precipitated in all alloys because of the limited solid solubility of Mo in the Fe-Al-based phases.The as-cast Fe50Al50-nMon alloys exhibited brittle behavior with high yield strength and limited fracture strain at room temperature.Compared with the as-cast alloys,all the heat-treated alloys except for the Fe50Al41Mo9 alloy exhibited enhanced mechanical properties at room temperature.The heat-treated Fe50Al43Mo7 alloy exhibited the highest fracture strain and compressive strength of 25.4%and 2.3 GPa,respectively.展开更多
基金Project(51401026)supported by the National Natural Science Foundation of China
文摘The microstructure evolution and phase transformation of Cu-20Ni-20Mn(mass fraction,%) alloy at 450 °C were investigated by X-ray diffraction and transmission electron microscopy(TEM).The variations of tensile strength,yield strength and hardness of this alloy during aging process were also analyzed.The results show that no significant variations of hardness and strength in the initial stage of aging,with a long incubation period,are observed at 450 °C.Subsequently,the ordered face-centered tetragonal(FCT) Ni Mn phase nucleates and grows up with prolonging the aging time.The hardness and tensile strength of the alloy increase up to their maximum values with increasing the ordered particle size,i.e.,the strength of the alloy reaches 942 MPa after being aged at 450°C for 40h.The main cause of the age-hardening is considered to be precipitation strengthening due to the ordered FCT-Ni Mn particles.
基金OYP Program at Middle East Technical University and The Scientific and Technological Research Council of Turkey,TUBITAKNational Scholarship Programme for PhD Students
文摘The effects of Mo addition on microstructures,phase relationships,order–disorder phase-transition temperatures and room-temperature mechanical properties of Fe50Al50-nMon alloys(n=1,3,5,7,and 9,mole fraction,%)were investigated after solidification and heat treatment.Structural characterization of the samples was performed via X-ray diffraction(XRD),scanning electron microscopy(SEM)and differential scanning calorimetry.Room-temperature mechanical properties were investigated by conducting compression and microhardness tests.Mo3Al particles precipitated in all alloys because of the limited solid solubility of Mo in the Fe-Al-based phases.The as-cast Fe50Al50-nMon alloys exhibited brittle behavior with high yield strength and limited fracture strain at room temperature.Compared with the as-cast alloys,all the heat-treated alloys except for the Fe50Al41Mo9 alloy exhibited enhanced mechanical properties at room temperature.The heat-treated Fe50Al43Mo7 alloy exhibited the highest fracture strain and compressive strength of 25.4%and 2.3 GPa,respectively.
